KR20030038151A - Air circulation apparatus of cooking room in microwave oven - Google Patents

Abstract

PURPOSE: An air circulation apparatus is provided to prevent dew formation at the inner surface of the microwave oven door during cooking by circulating air in the cooking room. CONSTITUTION: An air circulation apparatus comprises a cavity(30) having a cooking room(32) formed inside of the cavity, and an upper plate with a plurality of air inlet holes(38) for supplying air into the cooking room; a cooling fan unit(50) for cooling the components mounted on the cavity and forming air stream to be supplied through the air inlet holes; and a circulation fan unit(62) mounted on the cavity, which forms air flow in the cooking room through an inlet port and an outlet port communicated to the cooking room. Since the air inlet holes are formed at the front end of the upper plate of the cavity, dew formation at the rear surface of a microwave oven door(33) is prevented.

Description

Air circulation apparatus of cooking room in microwave oven

The present invention relates to a microwave oven, and more particularly, to a cooking chamber air flow apparatus of the microwave oven to form an air flow inside the cooking chamber so that moisture does not form on the inner surface of the door during cooking.

A microwave oven is an apparatus for heating food by irradiating a heating object (food) by generating a microwave using electric current and supplying it into a cooking chamber. In general, in a microwave oven, an air flow is formed to exhaust water vapor generated from food heated in a cooking chamber, which is a heating space, to the outside.

1 shows a perspective view of a main portion of a microwave oven according to the prior art, and FIG. 2 shows an air flow passing through the cooking chamber in the prior art. As shown in these figures, the cooking chamber 1, which is a space for heating ordinary food, is formed inside the cavity 3, and the entrance thereof is opened and closed by the door 2. The electric field chamber 5 is provided in one side of the said cavity 3. The high-voltage transformer 7 and the magnetron 9 are installed in the electric compartment 5.

Since a large amount of heat is generated when the high voltage transformer 7 and the magnetron 9 are driven, a cooling fan 11 for dissipating such heat is provided. A part of the air flow generated from the cooling fan 11 is introduced into the cooking chamber 1 after cooling the magnetron 9.

Looking at the inflow path into the cooking chamber (1), the air passing through the magnetron (9) passes through the interior of the air duct 22 which is installed adjacent to the magnetron (9) and the electric compartment (5) It flows into the cooking chamber 1 through a plurality of ventilation holes formed in one side wall 13 of the cavity 3 partitioning the cooking chamber 1. The air introduced into the inside of the cooking chamber 1 is formed by an arrow in FIG. 2 through an exhaust unit 17 formed on the opposite wall surface of the cavity 3, such as steam generated during heating of the food inside the cooking chamber 1. As shown, it is exhausted outside the cooking chamber 1.

However, the prior art as described above has the following problems.

As shown in FIG. 2, the air supplied into the cooking chamber 1 flows from the inner right front end of the cooking chamber 1 to the left rear end direction as shown in FIG. 2. Therefore, the air is not properly delivered to the rear surface of the door 2 corresponding to area A of FIG. 2. In this case, a lot of moisture is formed in the area A of the door 2, so that the inside of the cooking chamber 1 cannot be easily seen during cooking.

In order to form such an air flow, the air duct 15 must be installed in the electric field chamber 5, and a separate damper for selectively opening and closing the air duct 15 must be provided. Problems such as increase also occur.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to prevent moisture from forming on the back of the door of the microwave oven.

Another object of the present invention is to supply air to the inner end of the cooking chamber without a separate component to remove the steam inside the cooking chamber.

1 is an exploded perspective view showing the main configuration of a microwave oven having a cooking chamber air flow apparatus according to the prior art.

Figure 2 is an air flow state showing the air flow in the cooking chamber of the microwave oven according to the prior art.

Figure 3 is a schematic perspective view showing the configuration of a microwave oven equipped with a preferred embodiment of the cooking chamber air flow apparatus according to the present invention.

Figure 4 is a schematic cross-sectional view showing the main portion of the embodiment of the present invention.

Figure 5 is an air flow state showing the air flow formed inside the cooking chamber of the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

30: cavity 32: cooking chamber

33: door 34: front plate

35; Back Plate 36: Top

38: air inlet hole 40: magnetron

42: high pressure transformer 50: cooling fan unit

60: heater cover 61: heater

62: circulation fan unit 65: suction port

67: discharge port

According to a feature of the present invention for achieving the object as described above, the present invention is the cooking chamber which is opened and closed by the door is formed therein and the air for supplying air downward from the front end of the inside of the cooking chamber corresponding to the back of the door A cooking chamber through a cavity having an inlet hole, a cooling fan unit for cooling an electric component installed at an upper portion of the cavity, and forming an air flow supplied to the air inlet hole, a suction port and an outlet opening communicating with the inside of the cooking chamber at an upper portion of the cavity; It includes a circulation fan unit for forming the air flow therein.

The air inlet hole is formed along the leading end of the upper plate forming the upper surface of the cavity.

The air supplied to the cooking chamber by the circulation fan unit forms an air stream circulated separately from the air introduced through the air inlet hole.

The inner rear of the cooking chamber is further provided with an exhaust for discharging the air inside the cooking chamber to the outside.

According to the present invention having such a configuration there is an advantage that moisture does not form on the inner surface of the door for opening and closing the cooking chamber.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the cooking chamber air flow apparatus of the microwave oven according to the present invention as described above will be described in detail.

3 is a schematic perspective view showing the configuration of an embodiment of the present invention, Figure 4 is a schematic cross-sectional view showing a part of the configuration of the embodiment of the present invention. As shown in these figures, the cavity 30 forms the skeleton of the microwave oven. The exterior of the microwave oven is formed by an outer case (not shown).

Inside the cavity 30, a cooking chamber 32, which is a space where cooking is performed, is provided. The cooking chamber 32 is selectively communicated with the outside by the door 33. The door 33 shields the cooking chamber 32 so that electromagnetic waves do not leak to the outside of the microwave oven during cooking. An exhaust part (not shown) for exhausting water vapor inside the cooking chamber 32 to the outside is formed at one side of the inner wall of the cooking chamber 32.

The front of the cavity 30 is formed by the front plate 34, the center of the front plate 34 is formed with a rectangular through-hole forming the inlet of the cooking chamber 32, the door at the inlet edge The back edge of 33 is in close contact. The back plate 35 is formed on the rear surface of the cavity 30, and the top plate 36 is formed on the top surface of the cavity 30.

A plurality of air inlets 38 are drilled in the upper plate 36 of the cavity 30. The air inlet hole 38 is formed along the leading end of the upper plate 36, that is, the portion connected to the front plate 34. Through the air inlet hole 38, air is supplied to a portion corresponding to the upper end of the inlet of the cooking chamber 32.

Electrical components are installed on the upper plate 36. First, a magnetron 40 for supplying electromagnetic waves used as a heat source for heating a food to the inside of the cooking chamber 32 is installed at one side of the upper plate 36, and adjacent to the magnetron 40, the magnetron 40. A high voltage transformer 42 for applying a high voltage is installed.

Meanwhile, one end of the upper plate 36 is provided with a cooling fan unit 50 facing each other adjacent to the magnetron 40 and the high voltage transformer 42. The cooling fan unit 50 drives a plurality of cooling fans with one motor and supplies air for cooling to the magnetron 40 and the high pressure transformer 42, respectively.

Next, the upper plate 36 is provided with a configuration for supplying heat for heating the food into the interior of the cooking chamber 32. The heater 61 is installed inside the heater cover 60 installed on the upper plate 36. As the heater 61, a halogen lamp may be used.

The circulation fan unit 62 is installed on the upper plate 36 corresponding to one side of the heater cover 60. The circulation fan unit 62 serves to suck air in the cooking chamber 32 and pass the heater 61 to supply the cooking chamber 32 again. To this end, an inlet 65 is formed in the upper plate 36 of the cavity 30 in which the circulation fan unit 62 is installed, as shown in FIG. 4, and the cavity 30 in which the heater 61 is installed. The discharge port 67 is formed in the upper plate 36 of the.

Hereinafter, the operation of the cooking chamber air flow apparatus of the microwave oven according to the present invention having the configuration as described above will be described.

When a food is put into the cooking chamber 32 and a cooking condition is selected, the cooking is ordered, and electromagnetic waves are oscillated from the magnetron 40 to be irradiated into the cooking chamber 32. The electromagnetic waves heat the food.

At this time, the cooling fan unit 50 is driven to suck outside air, and cools the magnetron 40 and the high-pressure transformer 42 installed on the upper plate 36. That is, the air discharged from the cooling fan unit 50 flows in one direction of the magnetron 40 and the high pressure transformer 42 at one end of the upper portion of the cavity 30.

On the other hand, the air from the cooling fan unit 50 flows along the upper plate 36 and is supplied into the cooking chamber 32 through the air inlet 38. Since the air inlet hole 38 is formed along the front end of the upper plate 36, the air passing through the air inlet hole 38 moves to the front end of the cooking chamber 32 adjacent to the rear surface of the door 33. Supplied. The air passes through the rear surface of the door 33 while flowing from the upper end to the lower end of the bottom surface of the door 33, as indicated by arrow A in FIG. 5. In this way, water vapor generated when cooking food is prevented from being attached to the rear surface of the door 33.

Next, when the circulation fan unit 62 is operated, a flow of air circulating in the center of the cooking chamber 32 is generated. That is, as indicated by the arrow B of FIG. 5, the inside of the cooking chamber 32 flows into the cooking chamber 32 through the discharge port 67 and exits the cooking chamber 32 through the suction port 65. An air flow flowing into the cooking chamber 32 through the discharge port 67 is formed.

Such a flow of air is preferably such that the magnetron 40 is formed from the time when the water vapor is generated by oscillating electromagnetic waves. To this end, when the steam is generated after the start of cooking, the circulation fan unit 62 is driven to flow air inside the cooking chamber 32. At this time, the rear surface of the door 33 is heated to some extent by the electromagnetic waves, and in such a state, the temperature difference between the air circulating inside the cooking chamber 32 and the rear surface of the door 33 is not large, so that the moisture is generated in the door 33. It is not easily formed on the back of the.

Here, the driving of the circulation fan unit 62 is performed to create an air flow therein when cooking is performed using electromagnetic waves regardless of the heating operation of the heater 61.

On the other hand, a portion of the air circulating in the cooking chamber 32 is discharged to the outside of the cooking chamber 32 through the exhaust, as shown by the arrow C of FIG. The amount of air discharged through the exhaust portion is approximately equal to the amount of air introduced through the air inlet hole 38. At this time, the air discharged through the exhaust part is in a state containing moisture while circulating inside the cooking chamber 32.

The cooking chamber air flow apparatus of the microwave oven according to the present invention as described in detail above is to prevent water from being formed on the rear surface of the door that selectively shields the cooking chamber, and the air for cooling the electrical components is supplied into the cooking chamber to open the door. It is intended to flow from the top of the back to the bottom. Since the air flows through the entire rear surface of the door, water is not formed in the entire door, and the circulation fan unit is used to create the air flow inside the cooking chamber so that steam generated during cooking does not flow near the door. do. With this configuration, in the present invention, moisture is not formed on the rear surface of the door during cooking.

And the air flowing from the top to the bottom on the rear surface of the door as described above is provided by the cooling fan assembly for the cooling of the electrical components, it is simply to perforate the air inlet hole in the position corresponding to the tip of the cooking chamber of the cavity top plate Is formed by. Therefore, it is not necessary to install a separate part to supply air to the inside of the cooking chamber, thereby reducing the number of parts constituting the microwave oven, thereby reducing the manufacturing cost.

Claims (4)

A cavity in which a cooking chamber opened and closed by a door is formed therein, and an air inlet hole for supplying air downward from an upper end of the inside of the cooking chamber corresponding to the rear surface of the door; A cooling fan unit for cooling an electric component installed at an upper portion of the cavity and forming an airflow supplied to the air inlet hole; And a circulation fan unit configured to form an air flow in the cooking chamber through an inlet and a discharge hole communicating with the inside of the cooking chamber at an upper portion of the cavity. The cooking chamber air flow apparatus according to claim 1, wherein a plurality of air inlet holes are formed along a tip of an upper plate forming an upper surface of the cavity. According to claim 1 or claim 2, wherein the air supplied to the cooking chamber by the circulating fan unit cooking chamber air flow apparatus of the microwave oven, characterized in that to form a separate air flow circulated from the air flowing through the air inlet hole . The cooking chamber air flow apparatus according to claim 3, wherein an exhaust part for discharging air inside the cooking chamber to the outside is further provided at an inner rear side of the cooking chamber.